UFMylation Modulates OFIP Stability and Centrosomal Localization.

Background: OFIP, also known as KIAA0753, is a centrosomal and pericentriolar satellite protein implicated in ciliogenesis, centriolar duplication, and microtubule stability. In humans, genetic mutations affecting OFIP have been implicated in the pathogenesis of Oral-Facial-Digital (OFD) Syndrome and Joubert Syndrome. Ubiquitin-fold Modifier 1 (UFM1), the most recently identified ubiquitin-like protein, is covalently transferred to its substrates, in a process known as UFMylation. This modification has recently emerged as a key regulator of various biological processes by altering their stability, activity, or localization.

Methods: The interaction between UFL1 and OFIP, as well as the UFMylation of OFIP, were assessed through immunoprecipitation and immunoblotting analyses. The mRNA levels of OFIP were examined using reverse transcription quantitative PCR (RT-qPCR). Immunofluorescence microscopy was employed to examine the localization and distribution patterns of OFIP.

Results: Our findings demonstrate that UFL1 interacts with OFIP both in vivo and in vitro. We also found that OFIP undergoes UFMylation, and UFL1 promotes the OFIP UFMylation. Mechanistic studies demonstrate that OFIP UFMylation inhibits its protein stability and maintains its proper centrosomal localization. However, the efficacy of these regulatory mechanisms varies significantly between different cell types, being notably pronounced in HeLa cells but markedly reduced in RPE1 cells.

Conclusions: OFIP is identified as a novel substrate for UFMylation. UFL1-mediated OFIP UFMylation is essential for its stability and centrosomal localization in HeLa cells. However, these effects are not observed in RPE1 cells, highlighting cell type-specific heterogeneity in the role of OFIP UFMylation.